Affiliation:
1. Newcastle University
2. University of Nottingham
Abstract
Physics-based analytical models are seen as an efficient way of predicting the
characteristics of power devices since they can achieve high computational efficiency and may be
easily calibrated using parameters obtained from experimental data. This paper presents an
analytical model for a 4H-SiC Enhancement Mode Vertical JFET (VJFET), based on the physics of
this device. The on-state and blocking behaviour of VJFETs with finger widths ranging from 1.6+m
to 2.2+m are studied and compared with the results of finite element simulations. It is shown that
the analytical model is capable of accurately predicting both the on-state and blocking
characteristics from a single set of parameters, underlining its utility as a device design and circuit
analysis tool.
Publisher
Trans Tech Publications, Ltd.
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
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